The Design and Demonstration of the Ultralight Testbed

2006 3rd International Conference on Broadband Communications, Networks and Systems Pub Date : 2006-10-01 DOI:10.1109/BROADNETS.2006.4374312

H. Newman, D. Bourilkov, J. Bunn, R. Cavanaugh, I. Legrand, S. Low, S. McKee, D. Nae, S. Ravot, C. Steenberg, X. Su, Michael Thomas, F. V. Lingen, Yang Xia

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Abstract

In this paper we present the motivation, the design, and a recent demonstration of the UltraLight testbed at SC|05. The goal of the Ultralight testbed is to help meet the data-intensive computing challenges of the next generation of particle physics experiments with a comprehensive, network- focused approach. UltraLight adopts a new approach to networking: instead of treating it traditionally, as a static, unchanging and unmanaged set of inter-computer links, we are developing and using it as a dynamic, configurable, and closely monitored resource that is managed from end-to-end. To achieve its goal we are constructing a next-generation global system that is able to meet the data processing, distribution, access and analysis needs of the particle physics community. In this paper we will first present early results in the various working areas of the project. We then describe our experiences of the network architecture, kernel setup, application tuning and configuration used during the bandwidth challenge event at SC|05. During this Challenge, we achieved a record-breaking aggregate data rate in excess of 150 Gbps while moving physics datasets between many Grid computing sites.

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超轻型试验台的设计与论证

在本文中，我们介绍的动机，设计，并在SC|05最近演示的超轻测试平台。超轻测试平台的目标是通过全面的、以网络为中心的方法，帮助满足下一代粒子物理实验的数据密集型计算挑战。UltraLight采用了一种新的网络方式:我们不再把它传统地视为一组静态的、不变的、不受管理的计算机间链接，而是将其开发和使用为一种动态的、可配置的、密切监控的资源，从端到端进行管理。为了实现这一目标，我们正在构建下一代全球系统，能够满足粒子物理社区的数据处理、分发、访问和分析需求。在本文中，我们将首先介绍项目各个工作领域的早期结果。然后，我们描述了我们在SC|05带宽挑战事件中使用的网络架构、内核设置、应用程序调优和配置方面的经验。在这次挑战中，我们在多个网格计算站点之间移动物理数据集的同时，实现了超过150gbps的创纪录的总数据速率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2006 3rd International Conference on Broadband Communications, Networks and Systems

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